Tuesday, July 16, 2024

 

New 3D anatomical atlas of the African clawed frog increases understanding of development and metamorphosis processes



The lifespan of Xenopus laevis is presented in unprecedented detail using high-quality X-ray microtomography images and 3D reconstructions to reveal embryonic development and metamorphosis processes


Peer-Reviewed Publication

GIGASCIENCE

Digital model of the skeleton of Xenopos laevis 

IMAGE: 

IMAGE OF THE SKELETON OF XENOPOS LAEVIS USING THE PLATFORM SKETCHFAB TO CREATE AN INTERACTIVE 3D MODEL FROM X-RAY MICROTOMOGRAPHY IMAGING

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CREDIT: LAZNOVSKY J; KAVKOVA M; REIS A; ROBOVSKA-HAVELKOVA P; MAIA LA; KRIVANEK J; ZIKMUND T; KAISER J; BUCHTOVA M; HARNOS J GIGASCIENCE, HTTPS://DOI.ORG/10.1093/GIGASCIENCE/GIAE037




New 3D Anatomical Atlas of the African Clawed Frog Increases Understanding of Development and Metamorphosis Processes

The lifespan of Xenopus laevis is presented in unprecedented detail using high-quality X-ray microtomography images and 3D reconstructions to reveal embryonic development and metamorphosis processes.

A 3D anatomical atlas of the model organism Xenopus laevis (the African clawed frog) is now available to aid researchers in understanding embryonic development and metamorphosis — the intriguing process by which a tadpole transforms into a mature frog. The lack of availability of this type of data has greatly limited the ability to assess and understand these complex processes. To increase access and interactivity for researchers, science educators and even 3D printing enthusiasts, these data have been converted into freely available embeddable digital files for 3D-viewing with Sketchfab and as 3D printing files available on Thingiverse. This work along with all the available data has been published in the Open Science journal GigaScience.

The African Clawed Frog (Xenopus laevis) has become a well-understood and versatile vertebrate model organism for studies in developmental biology and other disciplines due to the availability of multiple types of data: from foundational transplantation experiments for the field of embryology in the early twentieth century to present day experiments using high-quality genome sequencing technology, This easy-to-breed frog is particularly suited to study body plan reorganization during the big changes that happen when the tadpole transforms into a mature frog: a process called metamorphosis. However, to move forward in gaining greater understanding of these processes, there is a great need for an additional type of data. Dr. Jakub Harnos from Masaryk University (Czech Republic), a lead scientist of the GigaScience study, explains that “a notable gap exists in the availability of comprehensive datasets encompassing Xenopus’ late developmental stages”. Detailed 

To fill this void, the team of researchers now provide this missing data. The authors used X-ray microtomography, a 3D imaging technique, to create an anatomical atlas to more accurately describe the multiple stages of X. laevis development. Using detailed analysis of their 3D reconstructions at the various stages of development, the authors could pinpoint key changes that occur during the anatomical transformations at the stages from tadpole, to froglet, to mature adult.

One striking example of the shape changes that can be tracked in great detail with this new high-resolution data is the adjustment of the position of the developing frog’s eyes, and the exact timing of this shift. With advancing development, the distance between the eyes progressively decreases. “This adaptation aligns well with the frog's life strategy, transitioning from a water-dwelling tadpole with lateral eyes to an adult with eyes positioned on top of the head for a submerged lifestyle, reminiscent of crocodilians,” the authors note. 

The frog’s gut also undergoes significant remodeling during metamorphosis. Over an 8-day period, the intestine shortens by around 75%, and the coiling pattern changes drastically – this process, which is difficult to study with other methods, can be followed in fine detail by X-ray microtomography the researchers have produced. Other anatomical facts that are showcased in high spatial and temporal resolution by the new 3D atlas are seeing the differences between male and female frogs (females end up larger, overall) and the very subtle positioning of the teeth of X. laevis, which are hidden behind the maxillary arch.

“Our study provides all X-ray microtomography data openly, allowing other researchers to investigate both soft and hard tissues in unprecedented detail in this key vertebrate model”, Dr Harnos emphasizes.

To enable scientists, educators and the 3D printing community easy access to printable models, a collection of 40 surface-rendered 3D models from the Xenopus laevis anatomical atlas are available on the design platform Thingiverse. Embeddable digital models can also be downloaded from the Sketchfab website and are viewable in the paper.

A video demonstrating many of the anatomical features that have now been revealed in 3 dimensions is available at https://youtu.be/pEWu15m2z6Q
 

Further reading:

Laznovsky J; Kavkova M; Reis A; Robovska-Havelkova P; Maia LA; Krivanek J; Zikmund T; Kaiser J; Buchtova M; Harnos J (2024). Unveiling Vertebrate Development Dynamics in Frog Xenopus laevis using Micro-CT Imaging. GigaScience giae037 https://doi.org/10.1093/gigascience/giae037

Media contacts:

GigaScience, Editor-in-Chief:

Scott Edmunds

Email: Scott@gigasciencejournal.com

Cell: +852 92490853

Expert:

Jakub Harnos

 Email: harnos@sci.muni.czmjhgkj

phone number: +420 549 49 4465
 

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About GigaScience

GigaScience is co-published by GigaScience Press and Oxford University Press. Winner of the 2018 PROSE award for Innovation in Journal Publishing, the journal covers research that uses or produces 'big data' from the full spectrum of the biological and biomedical sciences. It also serves as a forum for discussing the difficulties of and unique needs for handling large-scale data from all areas of the life and medical sciences. The journal has a completely novel publication format -- one that integrates manuscript publication with complete data hosting, and analysis tool incorporation. To encourage transparent reporting of scientific research as well as enable future access and analyses, it is a requirement of manuscript submission to GigaScience that all supporting data and source code be made available in the GigaScience database, GigaDB, as well as in publicly available repositories. GigaScience will provide users access to associated online tools and workflows, and has integrated a data analysis platform, maximizing the potential utility and re-use of data.

About GigaScience Press

GigaScience Press is BGI's Open Access Publishing division, which publishes scientific journals and data. Its publishing projects are carried out with international publishing partners and infrastructure providers, including Oxford University Press and River Valley Technologies. It currently publishes two award-winning data-centric journals: its premier journal GigaScience (launched in 2012), which won the 2018 American Publishers PROSE award for innovation in journal publishing, and its new journal GigaByte (launched 2020), which won the 2022 ALPSP Award for Innovation in Publishing. The press also publishes data, software, and other research objects via its GigaDB.org database. To encourage transparent reporting of scientific research and to enable future access and analyses, it is a requirement of manuscript submission to all GigaScience Press journals that all supporting data and source code be made openly available in GigaDB or in a community approved, publicly available repository. Curating 3D data the GigaDB team also make this data usable by the 3D printing community in Thingiverse (see https://www.youtube.com/watch?v=EHSbeDFN_k8).

 

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